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Giorgis
Alberto Giorgis, Torino IT
| Patent application number | Description | Published |
|---|---|---|
| 20120132601 | LOADING SHELF FOR A VEHICLE LUGGAGE COMPARTMENT - A loading shelf for a luggage compartment of a vehicle has one rear panel and at least one front panel coupled by means of a guide-and-slide device, which has two longitudinal channels, fixed relative to the rear panel, and two front slides and two rear slides, which are carried by the front panel and engage the channels; the rear slides are coaxial along an axis orthogonal to the longitudinal direction in which the front panel may slide; channels have respective openings having position, shape and size so as to let the front slides coming out of the channels; when the front slides are outside of the channels, the front panel is rotatable about the axis of the rear slides. | 05-31-2012 |
Daniel Giorgis, Glen Allen, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20110271144 | APPROACH FOR DATA INTEGRITY IN AN EMBEDDED DEVICE ENVIRONMENT - A system for providing data integrity in an embedded device environment. One approach is operating an embedded control engine with non-battery backup power and providing data backup with inexpensive memory. Just data having changes may be provided to a volatile memory such as an SRAM module. After an accumulation of a certain amount of data, the data may be moved onto a relatively larger non-volatile memory, such as an NVRAM module or other type of flash memory. Non-battery backup power may maintain the SRAM module for a period after a power loss, so as to retain data. After restoration of power, data from NVRAM and SRAM modules may be read by the backup service to recreate the last known state of the control engine before the power loss. | 11-03-2011 |
Lionel Giorgis US
| Patent application number | Description | Published |
|---|---|---|
| 20090209875 | DEVICE FOR THE ANALYSIS OF AN ENDOCARDIAC SIGNAL OF ACCELERATION - A device for the analysis of an endocardiac signal of acceleration. The device preprocesses the acquired endocardiac acceleration (EA) signal by cutting the signal EA collected into sub-signals EA, each one have a duration of one cardiac cycle; separating the cut signals to isolate in each sub-signal EA at least one component EAx, associated with a major cardiac sound, and preferably into components EA1 and EA2 associated with the two major cardiac sounds S1 and S2; and performing a correlation on each component EA1 and EA2, to readjust each sub-signal in relation to a maximum of correlation, so as to deliver a readjusted component EA1 and a readjusted component EA2. The device further determines, starting from the isolated correlated components EA1 and EA2, a component average EA1 and a component average EA2, and to combine these components EA1 and average EA2 so as to produce an average global signal EA for one cycle. The device extracts from these information temporal markers of characteristic moments in the cardiac cycle, in particular markers of the moment of opening and closing of the aortic valve. | 08-20-2009 |
Lionel Giorgis, Saint Brieuc FR
| Patent application number | Description | Published |
|---|---|---|
| 20120022607 | VENTRICULAR CAPTURE TESTING BY ANALYSIS OF AN ENDOCARDIAL ACCELERATION SIGNAL IN AN ACTIVE IMPLANTABLE MEDICAL DEVICE - An active implantable medical device such as a cardiac prosthesis, including ventricular capture testing by analysis of an endocardial acceleration signal. The device isolates in an endocardial acceleration (“EA”) signal an EA component, extracts from it, n representative indicators (PEA_i, LEA_i), and forms a vector EA (X_i) from these indicators. A classifier allows acquiring reference EA signals at a stimulation energy level sufficient to cause a capture, and in spontaneous rhythm in the absence of ventricular pacing and forms a corresponding plurality of first reference EA vectors. The n-dimensional space of the EA vectors is partitioned into two corresponding subspaces. The presence or absence of a capture is discriminated based on the position of the current EA vector (X_i) in one or other of these two sub-spaces. The representative indicators may be: the value of peak to peak amplitude, the width, the moment of occurrence of the peak, the starting time and the ending time of the EA | 01-26-2012 |